Design and Implementation of Energy Management System for Hybrid RE Power System
Noviadi A. Rachman(Research Centre For Electrical Power And Mechatronics)
Jl. Cisitu No 21/154 D, Bandung, 40135 Indonesia
LIP
I
Earth Sciences
Life Sciences
Engineering Sciences
RC for Physics
RC for Chemistry
RC for Electrical Power and Mechatronics
RC for Electronic and Telecommunication
RC for Informatics
Development Center for Appropriate Technology
R&D Division for Natural Material Technology
Research Unit for Clean Technology
R&D Division for Mineral Technology
Social Sciences
Scientific Services
Researchers : 1588
Introduction
LIPI is non-ministerial government research institution responsible to the President under the auspice of the Ministry for Research, Technology, and Higher Education.LIPI’s role is to carry out government duties in the field of scientific research.
Energy Research
@LIPI
RE Power Generation
System
Material, Fuel and Energy
Storages
Energy Management
System
Energy Conservation (Sustainable
Transportation)
Socio Economy
Study
Energy Research in LIPI
Research Topics
▪ Background
The energy crisis and environmental issues make us switch to using environmentally friendly of renewable energy (RE)
This means that renewables are increasingly displacing “dirty” fossil fuels inthe power sector, offering the benefit of lower emissions of carbon and othertypes of pollution.
Five steps to develop NRE ;1. Increasing the capacity of power plants in producing
energy. In the next several years, the construction ofHydro Power Plants (PLTA) and Geothermal Power Plants(PLTP) will be increased.
2. Increasing the accesses to modern energy in isolatedregions, especially rural areas using microhydro, solarpower, biomass and biogas.
3. Reducing oil fuel subsidy cost, in which the substitutionDiesel Engine Power Plant (PLTD) substitution to NREpower plant will reduce subsidy.
4. Reducing greenhouse gas emission5. Energy saving at large scale.
▪ Background
• In supporting penetration of RE use in Indonesia, Telimek LIPI has implemented several RE power plants such as hydro, biogas and Solar-photovoltaic.
• One of the pilot project sites is the Baiturrahman boarding school, a rural area on the south side of Bandung, Indonesia.
• Three renewable energy power plants have been built in small capacity to reduce dependence on utility grid.
• The renewable energy power plants installed are 5 kW biogas, 5 kW micro hydro, and 1 kW solar (stand alone).
▪ Background
Load
Dummy load
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Hydro output Load
Dummy Dummy
Hydro Power Plant Spesification :• Propeller turbine that is suitable for use in
low head river flows.• Available head = 1,5 m, flow rate 500 L/s
turbine efficiency = 72%.• Testing Results = 4.2 kW• Generator Capacity = 5 kW
Power Generation Curve
▪ Background
Biogas Power Plant Spesification• Sources: 28 cows• Cow waste = ± 0.28 ton/day• Electricity 76.5 kWh/day• Generator Capacity = 5 kW
Testing Results = 40 kWh/day
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Biogas output Load
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▪ Background
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Hour
PV output Load
Solar PV panel
Charge
Controller
Inverter
Battery
Bank
Ac
Supply
To
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Solar Power Plant Spesification :• 10 X 1 panels (@100Wp) = 1kWp• Panel Efficiency = 14%
Local average daily irradiation = 4.89kWh/m2 per day
Testing results 10 panel ( 10m2) = 6.2 kWh per day
no sunlight no sunlight
▪ Background
• Now, RE power plants is not only focused on remote areas, butalso can be used in urban or rural areas where utility grid areaffordable.
• Through micro grid technology, RE power plants can beimplemented anywhere as long as their potential available.
• Energy Management System(EMS) based on renewableenergies can operate stand alone (off-grid) and can also beconnected with utility grid (on-grid).
▪ Background
The hybrid system in the microgrid is a new concept in electricity generation.Microgrid is small-scale electrical systems using locally available renewable energy sources. EMS
Hybrid Controller
Some RES such as solar, biogas, micro hydro havedifferent intermittent periods.Due to intermittent of RES, hybrid systems cancover each other's lack of RE power, so that thesupply of electricity in a local area can bemaintained.
Previously all power plants were connected to loads with standalone systemsusing conventional off-grid controls. Furthermore, all of the power plants wereintegrated into a microgrid that is connected to a utility grid to supplyelectricity local loads.
▪ Design of EMS - RE Hybrid Power
▪ Design of EMS - RE Hybrid Power
▪ Design of EMS - RE Hybrid Power
▪ Design of EMS - RE Hybrid Power
PowerComponents
Monitoring System
ControlComponents
SensorEMS Hardware
Integration
• The storage system uses 6 batteries 12 V, 150 Ah
• All batteries are configured in 2-series 3-paralels to produce a nominal voltage of 24 Vdc, 450 Ah 10.8 kWh
• Battery recommended in the system to anticipate RE power shortages, because RE power is intermittent
Battery
▪ Design of EMS - RE Hybrid Power
▪ Results The daily test results from the output of each RE power plant and its comparison with the load
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PV output Biogas output Hydro output Load
▪ Results The daily test results from the output of Hydro-Biogas-Solar hybrid powers and characteristic of batteries charge-discharge
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LOAD Hydro/Biogas/PV Hybrid Batt-Dischrg Batt-Chrg
▪ Results The daily test results from the output of Hydro/Biogas/Solar/Battery Hybrid and Import power from Utility Grid
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Power (W)
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LOAD RE Hybrid+Bat Utility Grid (PLN)
▪ Results
PV POWER3.65%
BIOGAS POWER23.56%
HYDRO POWER60.03%
UTILITY GRIDPOWER18.03%
POWER MIX PERCENTAGES
▪ ResultsSome other modes that are important to be applied in RE power Hybrid systems are Grid Protection Systems. Some of the protection modes applied in hybrid RE power are as follows:
• Self healing: a term used to describe the ability of an electric grid to detect, predict, anticipate and respond to disturbances that occur in the system quickly based on data or information sent by sensors that have been installed. For example, when there is a disturbance in the utility transformer, the protection system will automatically isolate the interference without waiting for the operator, so that it does not disturb other grid and does not cause blackouts.
• Anti Islanding: if there is a disturbance on the grid, the system will automatically disconnected the utility grid (off-grid) to ensure local grid safety and the utility operator can safely correct the problems that occur on the grid, while the load is still supplied by the local RE hybrid power system.
▪ ConclusionThe Energy Management System (EMS) has an important role in every Hybridpower plant application. EMS is used in optimizing local energy sources, schedulingpower plants, regulating power distribution in grid to be more efficient andreliable, optimizing continuous operation and matching power plants to loaddemands.The results of the EMS design test on the RE hybrid power plant at the project pilotlocation indicate a decrease in the power requirements of the utility grid from169,8 kWh/day to 30,6 kWh/day. It means that EMS can provide 81.88% powersavings by using locally renewable energy.
With output power percentage of RE Power plants :• Hydro Power = 60.03 %• Biogas Power = 23.56 %• Solar Power = 3.65 %
Indonesian Institute of Sciences (LIPI)
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